Pulsed alternators technologies and application / Shaopeng Wu, Shumei Cui.
Wu, Shaopeng, author.; Cui, Shumei, author.
2021
TK2761
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Title Pulsed alternators technologies and application / Shaopeng Wu, Shumei Cui.
Author Wu, Shaopeng, author.
ISBN 9789813342248 (electronic bk.)
9813342242 (electronic bk.)
9813342234
9789813342231
DOI https://doi.org/10.1007/978-981-33-4224-8
Publication Details Singapore : Springer, 2021.
Language English
Description 1 online resource
Item Number 10.1007/978-981-33-4224-8 doi
Call Number TK2761
Dewey Decimal Classification 621.31
Summary This book focuses on pulsed alternators design and applications. Both principles and design methods have been addressed. This is achieved by providing in-depth study on a number of major topics such as electrical design, thermal management, mechanical analysis, and special application. The research results and practical experience accumulated in the preliminary research, the National Natural Science Foundation of China and other major cooperative projects. Taking the pulse alternator as the core component, the entire pulse alternator system is systematically introduced, including the electromagnetic design, thermal management analysis, mechanical performance analysis of the pulse alternator, the introduction of the electromagnetic weapon load, the control technology of the pulse alternator power system, and the elaboration of other key components of the power system. This motor has been researched at home and abroad, but this book is the first international monograph on the field of pulse alternators in this field, which has very important academic value and reference value. The book benefits researchers, engineers, and graduate students in fields of electrical engineering, pulsed power, etc.
Bibliography, etc. Note Includes bibliographical references.
Access Note Access limited to authorized users.
Digital File Characteristics text file
PDF
Added Author Cui, Shumei, author.
Available in Other Form Print version: 9789813342231
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Intro
Preface
Contents
1 Overview of High-Power Pulsed Power Supply
1.1 Pulsed Power Technology
1.2 High-Power Pulsed Power Supply
1.3 Typical Applications of High-Power Pulsed Power Supply
1.3.1 Industrial Applications
1.3.2 Military Applications
1.4 Different Kinds of High-Power Pulsed Power Supplies
1.4.1 Capacitive Energy Storage Pulsed Power Supply
1.4.2 Inductive Energy Storage Pulsed Power Supply
1.4.3 Chemical Energy Storage Pulsed Power Supply
1.4.4 Inertial Energy Storage Pulsed Power Supply
1.5 Future Developments in Pulsed Power Technology

2 Basic Theories of Pulsed Alternators
2.1 Principles of Pulsed Alternators
2.1.1 The Basic Principles of Conventional Generators
2.1.2 The Basic Structure of the Pulsed Alternators
2.1.3 Working Principle of Pulsed Alternators
2.1.4 The Working Process of Pulsed Alternators
2.2 Type of Pulsed Alternators
2.2.1 Classification of Compensation
2.2.2 Classification of Excitation
2.3 Development of Pulsed Alternators
3 Electromagnetic Design of Pulsed Alternators

3.1 Relationship Among the Main Dimensions, Rotating Speed and Energy Storage and Power of Pulsed Alternators
3.1.1 Relationship Between Main Dimensions and Energy Storage
3.1.2 Relationship Between Main Dimensions and Power
3.2 Principles for the Selection of Poles and Phases
3.2.1 Pole Number Selection
3.2.2 Phase Number Selection
3.3 Analysis of the No-Load Magnetic Field of the Pulsed Alternators
3.3.1 Air-Core Alternator
3.3.2 Iron-Core Alternator
3.4 Calculation of Key Parameters of Pulsed Alternators

3.5 Analysis of Discharge Characteristics of Pulsed Alternators
3.5.1 Analysis of the Process of the Discharging of Pulsed Alternators
3.5.2 Analysis of Factors Affecting the Discharge Current of Pulsed Alternators
3.5.3 Analysis of the Conditions for Self-Excitation Establishment of Air-Core Pulsed Alternators
3.6 Mathematical Model of Pulsed Alternators
3.6.1 Mathematical Model of the Air-Core Pulsed Alternators in the Phase Coordinate System
3.6.2 Mathematical Model of Air-Core Pulsed Alternators Under the Rectangular Axis Coordinate System

3.7 Finite Element Modeling Method of the Pulsed Alternators
3.7.1 Design Process of Pulsed Alternators
3.8 Case Studies of the Design
3.8.1 Proposal for Double-Axis Compensation
3.8.2 Equivalent Inductance Analysis of Double-Axis Compensation Air-Core CPA
3.8.3 The Matching Design of the Double-Axis Compensation Air-Core CPA
3.8.4 Design Parameters and Simulation Model of Double-Axis Compensation Air-Core CPA
3.8.5 Analysis of Single Pulse Discharging Characteristics of Double-Axis Compensation Air-Core CPA

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